|Product||Form Factor||Processor Type||Processing Power||I/O||Ruggedization||Data Sheet|
|Ensemble 3000 Series OpenVPX Intel® Core i7 Next Generation SBC3510 Single-Board Computer||3U OpenVPX||Intel||2.2GHz, 70 GFLOPS peak||Multiple IO Options||Rugged||SBC3510|
|Ensemble 6000 Series OpenVPX Intel Core i7 Dual-Core LDS6520 Module||6U OpenVPX||Intel||46GFLOPS||Multiple IO Options|| Rugged
|Ensemble 6000 Series OpenVPX Intel® Core i7 Quad-Core Next Generation LDS6521 Module||6U OpenVPX||Intel||134 GFLOPS||Multiple IO Options|| Rugged
|Ensemble 6000 Series OpenVPX Intel Xeon Dual Quad-Core HDS6600 Module||6U OpenVPX||Intel||110 GFLOPS peak||Multiple IO Options||Rugged||HDS6600|
|Ensemble 6000 Series OpenVPX Intel Core 2 Duo SBC6521 Module||6U OpenVPX||Intel||1.8GHz||Multiple IO Options|| Rugged
The Ensemble™ 3000 Series OpenVPX Intel® Core i7 Next Generation SBC3510 Single-Board Computer brings the disruptive compute technology of the Sandy Bridge mobile-class processor to 3U OpenVPX™ subsystems. Designed with command-and-control applications in mind, the SBC3510 combines the processing capabilities of the 2nd Generation Core i7 processor with significant I/O capabilities.
With both built-in I/O and the flexibility of an on-board PMC/ XMC mezzanine site, the SBC3510 is uniquely suited to meeting the intense size, weight, and power (SWaP) constraints of the C2/C3 and Active EW application space, as well as commercial applications such as geophysical exploration and in-field scientific data collection.
The Ensemble™ 6000 Series OpenVPX™ Intel® Core i7 Dual-Core LDS6520 Module integrates a high-end Nehalem-class dual-core Intel Core i7 processor, a next-generation FPGA for both fabric bridging and user-application functions, and high-bandwidth on-board and off-board communication fabrics in a single 6U OpenVPX slot. By leveraging Intel high-density Core i7 processing with on-board integrated highperformance PCI Express infrastructure and I/O mezzanine sites, the LDS6520 delivers a well-balanced and scalable computing architecture that can provide processing and I/O functionality for highendradar, signals intelligence, and image processing applications.
The Ensemble™ 6000 Series OpenVPX Intel® Core i7 Quad-Core Next Generation LDS6521 Module combines a powerful Sandy Bridge mobile-class quadcore Intel® 2nd Generation Core i7 processor, a high-performance FPGA for both fabric bridging and user-application functions, and high-bandwidth on-board and off-board communication fabrics in a single 6U OpenVPX slot.
The LDS6521, as Mercury’s next low-density server, provides a next-generation architecture that balances the disruptive computational capabilities of the Intel 2nd Generation Core i7 processor with key high-bandwidth I/O interfaces, providing a powerful and scalable computing architecture that is well aligned with high-end radar, electronic warfare, and image processing applications.
he Ensemble™ 6000 Series OpenVPX Intel Xeon Dual Quad-Core HDS6600 Module is a high-density signal and data processing engine, harnessing of the latest generation of server-class Nehalem-based quad-core Intel® Xeon® processors for the most demanding applications. The HDS6600 is equipped with a next-generation FPGA for fabric bridging/switching and user application functions, and provides high-bandwidth on-board and off-board communication fabrics in a standard 6U OpenVPX™ form factor.
By leveraging the power of Intel high-density Xeon processing in combination with the on-board integrated high-performance PCI Express® and fabric infrastructure, the HDS6600 delivers a wellbalanced and scalable computing architecture, capable of providing groundbreaking levels of processing power for high-end radar, signals intelligence, and image and packet processing applications.